Abstract
Lung cancer is one of the most common reasons for cancer-induced mortality across the globe, despite major advancements in the treatment strategies including radiotherapy and chemotherapy. Existing reports suggest that CXCR4 is frequently expressed by malignant tumor and is imperative for vascularization, tumor growth, cell migration, and metastasis pertaining to poor prognosis. In this study, we infer that CXCR4 confers resistance to ionizing radiation (IR) in nonsmall cell lung cancer (NSCLC) cells. Further, on the basis of colony forming ability, one finds that drug-resistant A549/GR cells with improved CXCR4 expression exhibited more resistance to IR than A549 cells evidenced along with a reduction in the formation of γ-H2AX foci after IR. Transfection of shRNA against CXCR4 or treatment of pharmacological inhibitor (AMD3100) both led to sensitization of A549/GR cells towards IR. Conversely, the overexpression of CXCR4 in A549 and H460 cell lines was found to improve clonogenic survival, and reduce the formation of γ-H2AX foci after IR. CXCR4 expression was further correlated with STAT3 activation, and suppression of STAT3 activity with siSTAT3 or a specific inhibitor (WP1066) significantly stymied the colony-forming ability and increased γ-H2AX foci formation in A549/GR cells, indicating that CXCR4-mediated STAT3 signaling plays an important role for IR resistance in NSCLC cells. Finally, CXCR4/STAT3 signaling was mediated with the upregulation of Slug and downregulation of the same with siRNA, which heightened IR sensitivity in NSCLC cells. Our data collectively suggests that CXCR4/STAT3/Slug axis is paramount for IR resistance of NSCLC cells, and can be regarded as a therapeutic target to enhance the IR sensitivity of this devastating cancer.
Highlights
With a high death burden across the globe, lung cancer has emerged as a major healthcare problem
We first examined whether A549/GR cells having high level of CXCR4 expression on their surface are more resistant to ionizing radiation (IR) than A549 parent cells
These data suggest that A549/GR cells have higher activity of repairing DNA damage by IR evidenced by γ-H2AX foci assay than A549 parent cells, which might lead to enhanced clonogenic survival of the latter after IR
Summary
With a high death burden across the globe, lung cancer has emerged as a major healthcare problem. A considerable number of patients are known to witness either local-regional recurrence or new cases of primary cancer after radiotherapy For this reason it is necessary to develop radiotherapeutic strategies by focusing the crucial mechanism(s) for lung cancer’s radioresistance so as to improve the treatment outcomes. Lung cancer cells that are resistant to ionizing radiation (IR) and drugs which exhibit CSCs characteristics are able to express several epithelial–mesenchymal transition makers and CSCs8. It is for this reason that it is necessary to target LCSCs in order to augment the clinical outcomes of lung cancer patients
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